CN215641955U - Photoelectric connector connection structure - Google Patents

Photoelectric connector connection structure Download PDF

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Publication number
CN215641955U
CN215641955U CN202122100837.1U CN202122100837U CN215641955U CN 215641955 U CN215641955 U CN 215641955U CN 202122100837 U CN202122100837 U CN 202122100837U CN 215641955 U CN215641955 U CN 215641955U
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male
female
connector
joint
blind hole
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CN202122100837.1U
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Chinese (zh)
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吴军
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Zhongshan Manniu Technology Co ltd
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Zhongshan Manniu Technology Co ltd
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Priority to CN202122100837.1U priority Critical patent/CN215641955U/en
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Abstract

The utility model discloses a photoelectric connector connecting structure, which comprises a female connector and a male connector which are connected with each other, wherein a female connector wiring end is provided with a female connector blind hole for an optical fiber to penetrate, a female connector inserting end is provided with a female connector inserting groove, the bottom of the female connector blind hole is opposite to the bottom of the female connector inserting groove, the bottom of the female connector blind hole and the bottom of the female connector inserting groove can transmit light, a plurality of female pins penetrating through the female connector wiring end and the inserting end are arranged on the female connector, a male connector blind hole for the optical fiber to penetrate is arranged on the male connector wiring end, a male connector plug for being connected with the female connector inserting groove in an inserting manner is arranged on the male connector inserting end, the bottom of the male connector blind hole is opposite to the top of the male connector plug, the bottom of the male connector blind hole and the top of the male connector plug can transmit light, a plurality of male pins penetrating through the male connector and the inserting end are arranged on the male connector wiring end, the male connector inserting end extends out of the male connector inserting end and is respectively connected with the female connector inserting end, the connection is stable and the optical signal transmission is stable.

Description

Photoelectric connector connection structure
[ technical field ]
The utility model relates to a photoelectric connector connecting structure.
[ background art ]
The two-end connector structure of the existing optical-electrical connector is complex, is not tight and easy to loosen, influences optical signal transmission, and is not suitable for an optical-electrical connector of an active optical fiber HDMI AOC product, wherein the Source input end and the Display output end are converted into connecting accessories.
[ contents of utility model ]
The utility model overcomes the defects of the technology and provides the photoelectric connector connecting structure which is stable in connection and is assembled in a wiring way.
In order to achieve the purpose, the utility model adopts the following technical scheme:
an optical-electrical connector connection structure, characterized in that: comprises a female joint and a male joint which are connected with each other, a female joint blind hole for an optical fiber to penetrate is arranged at the terminal of the female joint, a female joint slot is arranged at the socket end of the female joint, the bottom of the female joint blind hole is opposite to the bottom of the female joint slot, and the bottom of the female joint blind hole is arranged, the bottom of the female connector slot is light-permeable, a plurality of female pins penetrating through the female connector wiring end and the socket end are arranged on the female connector, the female pin wiring end is connected with the electronic line, the male connector wiring end is provided with a male connector blind hole for the penetration of an optical fiber, the male connector socket end is provided with a male connector plug for being in plug-in connection with the female connector slot, the bottom of the male connector blind hole is arranged opposite to the top of the male connector plug, the bottom of the male connector blind hole and the top of the male connector plug are light-permeable, a plurality of male pins penetrating through the male connector wiring end and the socket end are arranged on the male connector, the male connector wiring end is connected with the electronic line, and the male connector socket end extends out of the male connector socket end face and is respectively in plug-in connection with the female connector socket end.
The connecting structure of the photoelectric connector is characterized in that: two positioning pins are arranged on the inner bottom surface of the female connector slot, and two positioning jacks for the positioning pins to insert are arranged on the male connector plug.
The connecting structure of the photoelectric connector is characterized in that: the female connector slot is a rectangular slot, and the male connector plug is a rectangular plug.
The connecting structure of the photoelectric connector is characterized in that: the bottom of the blind hole of the female connector is opposite to the central position of the bottom of the slot of the female connector, and the bottom of the blind hole of the male connector is opposite to the central position of the top of the plug of the male connector.
The connecting structure of the photoelectric connector is characterized in that: the female needles are eight, and the male needles are eight.
The connecting structure of the photoelectric connector is characterized in that: eight female needles equally divide into two lines and set up respectively in both sides about the female joint slot, and eight public needles equally divide into two lines and set up respectively in both sides about the public joint plug.
The connecting structure of the photoelectric connector is characterized in that: the female pin terminal is connected with the electronic wire in a welding mode, and the male pin terminal is connected with the electronic wire in a welding mode.
The utility model has the beneficial effects that:
the utility model is composed of a female joint and a male joint, wherein a female joint blind hole for an optical fiber to penetrate is arranged on a female joint wiring end, a female joint slot is arranged on a female joint socket end, the bottom of the female joint blind hole is opposite to the bottom of the female joint slot, the bottom of the female joint blind hole and the bottom of the female joint slot can transmit light, a plurality of female pins penetrating through the female joint wiring end and the socket end are arranged on the female joint, the female pin wiring end is connected with an electronic wire, a male joint blind hole for the optical fiber to penetrate is arranged on the male joint wiring end, a male joint plug for being connected with the female joint slot in an inserting manner is arranged on the male joint socket end, the bottom of the male joint blind hole is opposite to the top of the male joint plug, the bottom of the male joint blind hole and the top of the male joint plug can transmit light, a plurality of male pins penetrating through the male joint wiring end and the socket end are arranged on the male joint, the male pin wiring end is connected with the electronic wire, the male pin wiring end extends out of the male joint end and is respectively connected with the female joint socket end, the female connector and the male connector are connected stably and are not easy to loosen, optical signal transmission is stable, the overall structure is simple, and wiring assembly is facilitated.
[ description of the drawings ]
FIG. 1 is a schematic diagram of the present invention in practice;
FIG. 2 is a schematic view of a female connector according to the present invention;
FIG. 3 is a second schematic view of the female connector of the present invention;
FIG. 4 is a schematic view of a male connector according to the present invention;
FIG. 5 is a second schematic view of the male connector of the present invention.
[ detailed description of the utility model ]
The following is a more detailed description of embodiments of the utility model, taken in conjunction with the accompanying drawings of which:
as shown in fig. 1, the present invention is applied to an active optical fiber HDMI AOC product in which a Source input terminal and a Display output terminal are converted into connection accessories, wherein a female connector 1 is disposed at both ends of a main wire passing through a conduit, and a male connector 2 is disposed at one end of the connection accessories, and the female connector 1 and the male connector 2 are connected when in use.
As shown in fig. 2-5, a photoelectric connector connection structure comprises a female connector 1 and a male connector 2 connected with each other, a female connector blind hole 11 for an optical fiber to penetrate is formed in a terminal of the female connector 1, a female connector slot 12 is formed in a socket end of the female connector 1, the bottom of the female connector blind hole 11 is opposite to the bottom of the female connector slot 12, the bottom of the female connector blind hole 11 and the bottom of the female connector slot 12 are both light-permeable, a plurality of female pins 13 penetrating through a terminal of the female connector 1 and the socket end are arranged on the female connector 1, a terminal of the female pins 13 is connected with an electronic wire, a male connector blind hole 21 for the optical fiber to penetrate is formed in a terminal of the male connector 2, a male connector plug 22 for being inserted into the female connector slot 12 is arranged at the socket end of the male connector 2, the bottom of the male connector blind hole 21 is opposite to the top of the male connector plug 22, and the bottom of the male connector blind hole 21 and the top of the male connector plug 22 are both light-permeable, the male connector 2 is provided with a plurality of male pins 23 which penetrate through the wiring end and the socket end of the male connector 2, the wiring end of each male pin 23 is connected with an electronic wire, and the socket end of each male pin 23 extends out of the socket end face of the male connector 2 to be respectively connected with the socket end of the female pin 13 in an inserting mode.
When assembling and wiring, the female joint 1 is used for inserting the optical fiber of the main wire into the female joint blind hole 11 of the female joint 1 and fixing the optical fiber, and connecting the electronic wire of the main wire with the terminal of the female pin 13 respectively; the male connector 2 is used for inserting the optical fiber connected with the accessory line into the male connector blind hole 21 of the male connector 2 and fixing the optical fiber, and connecting the electronic wire connected with the accessory line with the terminal of the male pin 23 respectively.
During plugging, the plug ends of the male connector plug 22 and the male pin 23 of the male connector 2 are respectively plugged with the plug ends of the female connector slot 12 and the female pin 13 of the female connector 1 to realize plugging connection, wherein the main line optical fiber interface part plugged in the female connector blind hole 11 is arranged opposite to the connecting accessory line optical fiber interface part plugged in the male connector blind hole 21.
When the optical fiber connector is used, optical signals are transmitted from the main line optical fiber connector part, sequentially pass through the bottom of the female connector blind hole 11, the bottom of the female connector slot 12, the top of the male connector plug 22 and the bottom of the male connector blind hole 21, and are received by the line optical fiber connector part connected with accessories; the main line electronic wire signal is connected with the accessory line electronic wire through the female pin 13 and the male pin 23.
As shown in fig. 2-4, two positioning pins 14 are disposed on the inner bottom surface of the female connector slot 12, and two positioning insertion holes 24 for inserting the positioning pins 14 are disposed on the male connector plug 22; the female connector slot 12 is a rectangular slot, and the male connector plug 22 is a rectangular plug, so that the positioning connection between the female connector slot and the male connector is realized, and the connection stability and the transmission accuracy and stability of optical fiber optical signals are improved.
As shown in fig. 2-4, the bottom of the blind hole 11 of the female connector faces the central position of the bottom of the slot 12 of the female connector, and the bottom of the blind hole 21 of the male connector faces the central position of the top of the plug 22 of the male connector, so as to improve the transmission accuracy and stability of optical fiber optical signals
As shown in fig. 2-4, the female needles 13 are eight, and the male needles 23 are eight; the eight female pins 13 are equally divided into two rows and are respectively arranged on the upper side and the lower side of the female connector slot 12, and the eight male pins 23 are equally divided into two rows and are respectively arranged on the upper side and the lower side of the male connector plug 22, so that the eight male pins and the male connector plug are conveniently connected in an inserting mode.
As shown in fig. 2-4, the terminals of the female pins 13 are welded with the electronic wires, and the terminals of the male pins 23 are welded with the electronic wires, so that the connection stability is improved.

Claims (7)

1. An optical-electrical connector connection structure, characterized in that: comprises a female joint (1) and a male joint (2) which are connected with each other, a female joint blind hole (11) for an optical fiber to penetrate through is arranged at a wiring end of the female joint (1), a female joint slot (12) is arranged at a socket end of the female joint (1), the bottom of the female joint blind hole (11) is opposite to the bottom of the female joint slot (12), the bottom of the female joint blind hole (11) and the bottom of the female joint slot (12) are both light-transmitting, a plurality of female pins (13) penetrating through the wiring end and the socket end of the female joint (1) are arranged on the female joint (1), the wiring end of the female pins (13) is connected with an electronic wire, a male joint blind hole (21) for the optical fiber to penetrate through is arranged at the wiring end of the male joint (2), a male joint plug (22) for being connected with the female joint slot (12) in an inserting way is arranged at the socket end of the male joint (2), the bottom of the male joint blind hole (21) is opposite to the top of the male joint plug (22), and the bottom of the male joint blind hole (21) and the male joint plug (22) is both light-transmitting with the top of the male joint plug (22), the male connector (2) is provided with a plurality of male pins (23) which penetrate through the wiring ends of the male connector (2) and the socket ends, the wiring ends of the male pins (23) are connected with the electronic wire, and the socket ends of the male pins (23) extend out of the socket end face of the male connector (2) to be respectively in plug-in connection with the socket ends of the female pins (13).
2. An electro-optical connector connection structure according to claim 1, wherein: two positioning pins (14) are arranged on the inner bottom surface of the female connector slot (12), and two positioning insertion holes (24) for the positioning pins (14) to insert are arranged on the male connector plug (22).
3. An electro-optical connector connection structure according to claim 1 or 2, wherein: the female connector slot (12) is a rectangular slot, and the male connector plug (22) is a rectangular plug.
4. An electro-optical connector connection structure according to claim 1, wherein: the bottom of the female connector blind hole (11) is opposite to the central position of the bottom of the female connector slot (12), and the bottom of the male connector blind hole (21) is opposite to the central position of the top of the male connector plug (22).
5. An electro-optical connector connection structure according to claim 1, wherein: the female needles (13) are eight, and the male needles (23) are eight.
6. An electro-optical connector connection structure according to claim 5, wherein: the eight female pins (13) are equally divided into two lines and are respectively arranged on the upper side and the lower side of the female connector slot (12), and the eight male pins (23) are equally divided into two lines and are respectively arranged on the upper side and the lower side of the male connector plug (22).
7. An electro-optical connector connection structure according to claim 1, wherein: the terminal of the female pin (13) is connected with the electronic wire in a welding way, and the terminal of the male pin (23) is connected with the electronic wire in a welding way.
CN202122100837.1U 2021-09-01 2021-09-01 Photoelectric connector connection structure Active CN215641955U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202122100837.1U CN215641955U (en) 2021-09-01 2021-09-01 Photoelectric connector connection structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202122100837.1U CN215641955U (en) 2021-09-01 2021-09-01 Photoelectric connector connection structure

Publications (1)

Publication Number Publication Date
CN215641955U true CN215641955U (en) 2022-01-25

Family

ID=79905731

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202122100837.1U Active CN215641955U (en) 2021-09-01 2021-09-01 Photoelectric connector connection structure

Country Status (1)

Country Link
CN (1) CN215641955U (en)

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